Costa, R., and Baker, J. W. (2022). “A Methodology to Estimate Post-disaster Unmet Housing Needs Using Limited Data: Application to the 2017 Californian Wildfires.” Preprint. | |

Bhattacharjee, G., and Baker, J. W. (2023). "Using global variance-based sensitivity analysis to prioritise bridge retrofits in a regional road network subject to seismic hazard." Structure and Infrastructure Engineering, 19(2), 164–177. DOI. Software. | |

Wang, C., Costa, R., and Baker, J. W. (2022). “Simulating post-disaster temporary housing needs for displaced households and out-of-town contractors.” Earthquake Spectra, 38(4), 2922–2940. | |

Silva Lopez, R., and Baker, J. W. (2022). “Use of Corridors to Select Bridges to Retrofit in Road Networks in Seismic Regions.” Sustainable and Resilient Infrastructure, 7(6), 901–917. DOI. | |

Silva-Lopez, R., Bhattacharjee, G., Poulos, A., and Baker, J. W. (2022). “Commuter welfare-based probabilistic seismic risk assessment of regional road networks.” Reliability Engineering & System Safety, 108730. DOI. Software. | |

Loos, S., Levitt, J., Tomozawa, K., Baker, J. W., and Lallemant, D. (2022). “Efficacy of damage data integration: A comparative analysis of four major earthquakes.” Natural Hazards Review, 23(4), 04022026. DOI. Demonstration. Software. | |

Costa, R., Wang, C., and Baker, J. W. (2022). “Integrating Place Attachment into Housing Recovery Simulations to Estimate Population Losses.” Natural Hazards Review, 23(4), 04022021. DOI. | |

Bassman, T. J., Zhong, K., and Baker, J. W. (2022). “Evaluation of conditional mean spectra code criteria for ground motion selection.” ASCE Journal of Structural Engineering, 148(11), 04022177. DOI. Supplemental materials. Software. | |

Zhong, K., Chandramohan, R., Baker, J. W., and Deierlein, G. G. (2022). “Site-specific adjustment framework for incremental dynamic analysis (SAF-IDA).” Earthquake Spectra, 38(3), 1893–1917. DOI. Software. | |

Hulsey, A., Baker, J. W., and Deierlein, G. G. (2022). “High-Resolution Post-Earthquake Recovery Simulation: Impact of Safety Cordons.” Earthquake Spectra, 38(3), 2061–2087. DOI. | |

Bowers, C., Serafin, K. A., and Baker, J. W. (2022). “A Performance-Based Approach to Quantify Atmospheric River Flood Risk.” Natural Hazards and Earth System Sciences, 22(4), 1371–1393. DOI. Software. | |

Silva Lopez, R., Baker, J. W., and Poulos, A. (2022). “Deep learning-based retrofitting and seismic risk assessment of road networks.” ASCE Journal of Computing in Civil Engineering, 36(2), 04021038. DOI. | |

Teng, G., Baker, J. W., and Wald, D. J. (2022). “Evaluation of intensity prediction equations (IPEs) for small-magnitude earthquakes.” Bulletin of the Seismological Society of America, 112(1), 316–330. DOI. | |

Poulos, A., Miranda, E., and Baker, J. W. (2022). “Evaluation of Earthquake Response Spectra Directionality Using Stochastic Simulations.” Bulletin of the Seismological Society of America, 112(1), 307–315. DOI. | |

Kwong, N. S., Jaiswal, K. S., Baker, J. W., Luco, N., Ludwig, K. A., and Stephens, V. (2022). “Earthquake Risk of Gas Pipelines in the Conterminous United States and its Sources of Uncertainty.” ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 8(1), 04021081. DOI. | |

Argyroudis, S. A., Mitoulis, S. A., Chatzi, E., Baker, J. W., Brilakis, I., Gkoumas, K., Vousdoukas, M., Hynes, W., Carluccio, S., Keou, O., Frangopol, D. M., and Linkov, I. (2022). “Digital technologies can enhance global climate resilience of critical infrastructure.” Climate Risk Management, 35, 100387. DOI. | |

Teng, G., and Baker, J. W. (2022). "Post shut-in hazard for hydraulic-fracturing-induced earthquakes: Analysis using data from the Guy-Greenbrier earthquake sequence." Journal of Seismology. DOI. | |

Bowers, C., Serafin, K. A., and Baker, J. W. (2021). “A Performance-Based Approach to Quantify Atmospheric River Flood Risk.” Natural Hazards and Earth System Sciences Discussions, Copernicus GmbH, 1–32. DOI. | |

Chen, Y., Bradley, B. A., and Baker, J. W. (2021). “Non-stationary Spatial Correlation in New Zealand Strong Ground Motion Data.” Earthquake Engineering & Structural Dynamics, 50(13), 3421–3440. DOI. | |

Loos, S. L., Lallemant, D., Khan, F., McCaughery, J., Banick, R., Budhathoki, N., and Baker, J. W. (2021). “Beyond building damage: estimating and understanding non-recovery following disasters.” (in review). DOI. | |

Costa, R., and Baker, J. W. (2021). "SMOTE-LASSO Model of business recovery over time - case study of the 2011 Tohoku earthquake." Natural Hazards Review, 22(4), 04021038. DOI. Software. | |

Baker, J. W., Rezaeian, S., Goulet, C. A., Luco, N., and Teng, G. (2021). “A subset of CyberShake ground-motion time series for response-history analysis.” Earthquake Spectra, 37(2), 1162–1176. DOI. Video summary. Data set. Selection software. | |

Chen, Y., and Baker, J. W. (2021). “Community Detection in Spatial Correlation Graphs: Application to Non-stationary Ground Motion Modeling.” Computers and Geosciences, 154, 104779. DOI. Software. | |

Cremen, G., and Baker, J. W. (2021). “Variance-based Sensitivity Analyses and Uncertainty Quantification for FEMA P-58 Consequence Predictions.” Earthquake Engineering & Structural Dynamics, 50(3), 811–830. DOI. | |

Loos, S., Lallemant, D., Baker, J. W., McCaughery, J., Yun, S.-H., Budhathoki, N., Khan, F., and Singh, R. (2020). “G-DIF: A geospatial data integration framework to rapidly estimate post-earthquake damage.” Earthquake Spectra 36(4), 1695–1718. DOI. Software. | |

Baker, J. W., and Chen, Y. (2020). “Ground motion spatial correlation fitting methods and estimation uncertainty.” Earthquake Engineering & Structural Dynamics, 49(15), 1662–1681. DOI. Software. | |

Teng, G., and Baker, J. W. (2020). “Short-term probabilistic hazard assessment in regions of induced seismicity.” Bulletin of the Seismological Society of America, 110(5), 2441–2453. DOI. Electronic supplement. | |

Schultz, R., Beroza, G. C., Ellsworth, W. L., and Baker, J. W. (2020). “Risk-informed recommendations for managing hydraulic fracturing induced seismicity via traffic light protocols.” Bulletin of the Seismological Society of America, 110(5), 2411-2422. DOI. | |

Wu, J., and Baker, J. W. (2020). “Statistical Learning Techniques for the Estimation of Lifeline Network Performance and Retrofit Selection.” Reliability Engineering & System Safety, 200, 106921. DOI. | |

Zsarnóczay, Á., and Baker, J. W. (2020). “Using model error in response history analysis to evaluate component calibration methods.” Earthquake Engineering & Structural Dynamics, 49(2), 175–193. DOI. | |

Markhvida, M., Walsh, B., Hallegatte, S., and Baker, J. W. (2020). “Quantification of disaster impacts through household well-being losses.” Nature Sustainability. 3, 538–547. DOI. | |

Cremen, G., Seville, E., and Baker, J. W. (2020). “Modeling Post-Earthquake Business Recovery Time: An Analytical Framework.” International Journal of Disaster Risk Reduction, (40) 101328. DOI. | |

Teng, G., and Baker, J. W. (2019). “Seismicity Declustering and Hazard Analysis of the Oklahoma–Kansas Region.” Bulletin of the Seismological Society of America, 109(6), 2356–2366. DOI. | |

Chen, Y., and Baker, J. W. (2019). “Spatial correlations in CyberShake physics-based ground motion simulations.” Bulletin of the Seismological Society of America, 109(6), 2447-2458. DOI. | |

Teng, G., and Baker, J. (2019). “Evaluation of SCEC CyberShake Ground Motions for Engineering Practice.” Earthquake Spectra, 35(3), 1311–1328. DOI. Supplemental material. | |

Cremen, G., and Baker, J. W. (2019). “Improving FEMA P-58 Non-Structural Component Fragility Functions and Loss Predictions.” Bulletin of Earthquake Engineering, 17(4), 1941–1960. DOI. | |

Silva, V., Akkar, S., Baker, J., Bazzurro, P., Castro, J. M., Crowley, H., Dolsek, M., Galasso, C., Lagomarsino, S., Monteiro, R., Perrone, D., Pitilakis, K., and Vamvatsikos, D. (2019). “Current Challenges and Future Trends in Analytical Fragility and Vulnerability Modelling.” Earthquake Spectra, 35(4), 1927-1952. DOI. | |

Gupta, A., and Baker, J. W. (2019). “A framework for time-varying induced seismicity risk assessment, with application in Oklahoma.” Bulletin of Earthquake Engineering, 17(8), 4475–4493. DOI. | |

Cremen, G., and Baker, J. W. (2019). “A Methodology for Benchmarking Loss Predictions of the FEMA P-58 Seismic Performance Assessment Procedure.” Earthquake Spectra, 35(1), 193–210. DOI. | |

Tarbali, K., Bradley, B. A., and Baker, J. W. (2019). “Ground Motion Selection in the Near-Fault Region Considering Directivity-Induced Pulse Effects.” Earthquake Spectra, 35(2), 759–786. DOI. | |

Gomez, C., and Baker, J. W. (2019). “An optimization-based decision support framework for coupled pre- and post-earthquake infrastructure risk management.” Structural Safety, 77, 1–9. DOI. | |

Cremen, G., and Baker, J. W. (2018). “Quantifying the Benefits of Building Instruments to FEMA P-58 Rapid Post-Earthquake Damage and Loss Predictions.” Engineering Structures, 176, 243–253. DOI. | |

Markhvida, M., and Baker, J. W. (2018). “Unification of seismic performance estimation and real estate investment analysis to model post-earthquake building repair decisions.” Earthquake Spectra, 34(4), 1787–1808. (Recipient of the 2018 Earthquake Spectra Graduate Student Paper Award.) | |

Tarbali, K., Bradley, B. A., and Baker, J. W. (2018). “Consideration and Propagation of Ground Motion Selection Epistemic Uncertainties to Seismic Performance Metrics.” Earthquake Spectra, 34(2), 587–610. | |

Baker, J. W., and Lee, C. (2018). “An Improved Algorithm for Selecting Ground Motions to Match a Conditional Spectrum.” Journal of Earthquake Engineering, 22(4), 708–723. Associated software. | |

Worden, C. B., Thompson, E. M., Baker, J. W., Bradley, B. A., Luco, N., and Wald, D. J. (2018). “Spatial and Spectral Interpolation of Ground Motion Intensity Measure Observations.” Bulletin of the Seismological Society of America, 108(2), 866–875. | |

Markhvida, M., Ceferino, L., and Baker, J. W. (2018). “Modeling spatially correlated spectral accelerations at multiple periods using principal component analysis and geostatistics.” Earthquake Engineering & Structural Dynamics, 47(5), 1107–1123. Simulation code. Correlation model. | |

Bradley, B. A., Pettinga, D., Baker, J. W., and Fraser, J. (2017). “Guidance on the utilization of earthquake-induced ground motion simulations in engineering practice.” Earthquake Spectra, 33(3), 809–835. | |

Baker, J. W., and Bradley, B. A. (2017). “Intensity measure correlations observed in the NGA-West2 database, and dependence of correlations on rupture and site parameters.” Earthquake Spectra, 33(1), 145–156. Erratum. Associated data and software. | |

Gokkaya, B. U., Baker, J. W., and Deierlein, G. G. (2017). “Estimation and Impacts of Model Parameter Correlation for Seismic Performance Assessment of Reinforced Concrete Structures.” Structural Safety, 69, 68-78. | |

Gupta, A., Baker, J. W., and Ellsworth, W. L. (2017). “Assessing ground motion amplitudes and attenuation for small to moderate induced and tectonic earthquakes in the Central and Eastern United States.” Seismological Research Letters, 88(5), 1379-1389. | |

Haselton, Curt B., Baker, Jack W, Stewart, Jonathan P., Whittaker, Andrew W., Luco, Nicolas, Fry, Andy, Hamburger, Ronald O., and Zimmerman, Reid B. (2017). “Response-History Analysis for the Design of New Buildings in the NEHRP Provisions and ASCE/SEI 7 Standard: Part I - Overview and Specification of Ground Motions.” Earthquake Spectra, 33(2), 373–395. | |

Haselton, Curt B., Fry, Andy, Hamburger, Ronald O., Baker, Jack W, Luco, Nicolas, Elwood, Kenneth J., Hooper, John D., Charney, Finley A., Zimmerman, Reid B., Pekelnicky, Robert G., and Whittaker, Andrew W. (2017). “Response-History Analysis for the Design of New Buildings in the NEHRP Provisions and ASCE/SEI 7 Standard: Part II – Structural Analysis Procedures and Acceptance Criteria.” Earthquake Spectra, 33(2), 397–417. | |

Zimmerman, R., Baker, J. W., Hooper, J. D., Bono, S., Haselton, C. B., Engel, A., Hamburger, R. O., Celikbas, A., and Jalalian, A. (2017). “Response History Analysis for the Design of New Buildings in the NEHRP Provisions and ASCE/SEI 7 Standard: Part III - Example Applications Illustrating the Recommended Methodology.” Earthquake Spectra, 33(2), 419–447. | |

Gupta, A., and Baker, J. W. (2017). “Estimating Spatially Varying Event Rates with a Change Point using Bayesian Statistics: Application to Induced Seismicity.” Structural Safety, 65, 1–11. DOI. Software. | |

Chandramohan, R., Baker, J. W., and Deierlein, G. G. (2016). “Quantifying the influence of ground motion duration on structural collapse capacity using spectrally equivalent records.” Earthquake Spectra, 32(2), 927-950. | |

Seifried, A.E., and Baker, J. W. (2016). “Spectral Variability and its Relationship to Structural Response Estimated from Scaled and Spectrum-Matched Ground Motions.” Earthquake Spectra, 32(4), 2191–2205. | |

Gokkaya, B. U., Baker, J. W., and Deierlein, G. G. (2016). “Quantifying the Impacts of Modeling Uncertainties on the Seismic Drift Demands and Collapse Risk of Buildings with Implications on Seismic Design Checks.” Earthquake Engineering & Structural Dynamics, 45(10), 1661–1683. | |

Baker, J. W., and Gupta, A. (2016). “Bayesian Treatment of Induced Seismicity in Probabilistic Seismic Hazard Analysis.” Bulletin of the Seismological Society of America, 106(3), 860–870. | |

Chandramohan, R., Baker, J. W., and Deierlein, G. G. (2016). “Impact of hazard-consistent ground motion duration in structural collapse risk assessment.” Earthquake Engineering and Structural Dynamics, 45(8), 1357–1379. | |

Miller, M., and Baker, J. W. (2016). “Coupling mode-destination accessibility with a quantitative seismic-risk assessment to identify at-risk communities.” Reliability Engineering and System Safety, 147, 60–71. | |

Burks, L. S., and Baker, J. W. (2016). “A predictive model for fling-step in near-fault ground motions based on recordings and simulations.” Soil Dynamics and Earthquake Engineering, 80(1), 119–126. | |

Burks, L. S., Zimmerman, Reid B., and Baker, J. W. (2015). “Evaluation of Hybrid Broadband Ground Motion Simulations for Response History Analysis and Design.” Earthquake Spectra, 31(3), 1691–1710. | |

Loth, C., and Baker, J. W. (2015). “Rational design spectra for structural reliability assessment using the response spectrum method.” Earthquake Spectra, 31(4), 2007–2026. | |

Bradley, B. A., Burks, L. S., and Baker, J. W. (2015). “Ground motion selection for simulation-based seismic hazard and structural reliability assessment.” Earthquake Engineering & Structural Dynamics, 44(13), 2321–2340. | |

Baker, J. W. (2015). “Efficient analytical fragility function fitting using dynamic structural analysis.” Earthquake Spectra, 31(1), 579-599. Supplemental software tools. | |

Walters, R. J., Zoback, M. D., Baker, J. W., and Beroza, G. C. (2015). “Characterizing and Responding to Seismic Risk Associated with Earthquakes Potentially Triggered by Saltwater Disposal and Hydraulic Fracturing.” Seismological Research Letters, 86(4), 1110–1118. | |

Miller, M., and Baker, J. W. (2015). “Ground-motion intensity and damage map selection for probabilistic infrastructure network risk assessment using optimization.” Earthquake Engineering & Structural Dynamics, 44(7), 1139–1156. Supplemental software tools. | |

Bradley, B. A., and Baker, J. W. (2015). “Ground motion directionality in the 2010-2011 Canterbury earthquakes.” Earthquake Engineering & Structural Dynamics, 44(3) 371-384 | |

Burks, L. S., and Baker, J. W. (2014). “Validation of ground motion simulations through simple proxies for the response of engineered systems.” Bulletin of the Seismological Society of America, 104(4) 1930-1946. Software. DOI. | |

Shahi, S.K. and Baker, J.W. (2014). “An efficient algorithm to identify strong velocity pulses in multi-component ground motions.” Bulletin of the Seismological Society of America, 104(5), 2456–2466. Supplemental software tools and electronic supplement. Errata. | |

Shahi, S. K., and Baker, J. W. (2014). “NGA-West2 models for ground-motion directionality.” Earthquake Spectra, 30(3), 1285–1300. | |

Spudich, P., Rowshandel, B., Shahi, S. K., and Baker, J. W. (2014). “Overview and Comparison of the NGA-West2 Directivity Models.” Earthquake Spectra, 30(3), 1199–1221. | |

Myers, A. T., Kanvinde, A. M., Deierlein, G. G., and Baker, J. W. (2014). “A probabilistic formulation of the cyclic void growth model to predict ultra-low cycle fatigue in structural steel.” Journal of Engineering Mechanics, 140(6), 04014028. | |

Flint, M. M., Baker, J. W., and Billington, S. L. (2014). “A Modular Framework for Performance-Based Durability Engineering: from Exposure to Impacts.” Structural Safety, 50, 78–93. | |

Bozorgnia, Y., Abrahamson, N. A., Atik, L. A., Ancheta, T. D., Atkinson, G. M., Baker, J. W., Baltay, A., Boore, D. M., Campbell, K. W., Chiou, B. S.-J., Darragh, R., Day, S., Donahue, J., Graves, R. W., Gregor, N., Hanks, T., Idriss, I. M., Kamai, R., Kishida, T., Kottke, A., Mahin, S. A., Rezaeian, S., Rowshandel, B., Seyhan, E., Shahi, S., Shantz, T., Silva, W., Spudich, P., Stewart, J. P., Watson-Lamprey, J., Wooddell, K., and Youngs, R. (2014). “NGA-West2 Research Project.” Earthquake Spectra, 30(3), 1199–1221. | |

Lawrence, J. F., Cochran, E. S., Chung, A., Kaiser, A., Christensen, C. M., Allen, R., Baker, J. W., Fry, B., Heaton, T., Kilb, D., Kohler, M. D., and Taufer, M. (2014). “Rapid Earthquake Characterization Using MEMS Accelerometers and Volunteer Hosts Following the M 7.2 Darfield, New Zealand, Earthquake.” Bulletin of the Seismological Society of America, 104(1), 184–192. | |

Yamamoto, Y., and Baker, J. W. (2013). “Stochastic model for earthquake ground motion using wavelet packets.” Bulletin of the Seismological Society of America, 103(6), 3044–3056. | |

Lin, T., Haselton, C. B., and Baker, J. W. (2013). “Conditional-Spectrum-based ground motion selection. Part I: Hazard consistency for risk-based assessments.” Earthquake Engineering & Structural Dynamics, 42(12), 1847–1865. | |

Lin, T., Haselton, C. B., and Baker, J. W. (2013). “Conditional-Spectrum-based ground motion selection. Part II: Intensity-based assessments and evaluation of alternative target spectra.” Earthquake Engineering & Structural Dynamics, 42(12), 1867–1884. | |

Baker, J. W., Abrahamson, N. A., Whitney, J. W., Board, M., and Hanks, T. C. (2013). “Use of fragile geologic structures as indicators of unexceeded ground motions and direct constraints on probabilistic seismic hazard analysis.” Bulletin of the Seismological Society of America, 103(3), 1898-1911. | |

Lin, T., Harmsen, S. C., Baker, J. W., and Luco, N. (2013). “Conditional Spectrum Computation Incorporating Multiple Causal Earthquakes and Ground Motion Prediction Models.” Bulletin of the Seismological Society of America, 103(2A) 1103-1116. | |

Loth, C., and Baker, J. W. (2013). “A spatial cross-correlation model of ground motion spectral accelerations at multiple periods.” Earthquake Engineering & Structural Dynamics, 42(3), 397–417. Example Matlab script. Errata. | |

Burks, L. S., and Baker, J. W. (2012). “Occurrence of negative epsilon in seismic hazard analysis deaggregation, and its impact on target spectra computation.” Earthquake Engineering & Structural Dynamics, 41(8), 1241–1256. | |

Chen, Q., Seifried, A., Andrade, J. E., and Baker, J. W. (2012). “Characterization of random fields and their impact on the mechanics of geosystems at multiple scales.” International Journal for Numerical and Analytical Methods in Geomechanics, 36(2), 140-165. Matlab tool. | |

Jayaram, N., Baker, J. W., Okano, H., Ishida, H., McCann, M. W., and Mihara, Y. (2011). “Correlation of response spectral values in Japanese ground motions.” Earthquakes and Structures, 2(4), 357-376. | |

Jayaram, N., Lin, T., and Baker, J. W. (2011). “A computationally efficient ground-motion selection algorithm for matching a target response spectrum mean and variance.” Earthquake Spectra, 27(3), 797-815. Matlab tools. | |

Stewart, J. P., Abrahamson, N. A., Atkinson, G. M., Baker, J., Boore, D. M., Bozorgnia, Y., Campbell, K. W., Comartin, C. D., Idriss, I. M., Lew, M., Mehrain, M., Moehle, J. P., Naeim, F., and Sabol, T. A. (2011). “Representation of Bi-Directional Ground Motions for Design Spectra in Building Codes.” Earthquake Spectra, 27(3), 927-937. | |

Shahi, S., and Baker, J. W. (2011). “An empirically calibrated framework for including the effects of near-fault directivity in probabilistic seismic hazard analysis.” Bulletin of the Seismological Society of America, 101(2), 742-755. E-supplement. Erratum. | |

Baker, J.W. (2011). "Conditional Mean Spectrum: Tool for ground motion selection," Journal of Structural Engineering, 137(3), 322-331. | |

Haselton, C., Baker, J. W., Liel, A. B., and Deierlein, G. G. (2011). "Accounting for ground motion spectral shape characteristics in structural collapse assessment through an adjustment for epsilon," Journal of Structural Engineering, 137(3), 332-344. | |

Bayraktarli, Y. Y., Baker, J. W., and Faber, M. H. (2011). “Uncertainty treatment in earthquake modeling using Bayesian probabilistic networks.” GeoRisk, 5(1), 44–58. | |

Jayaram, N., and Baker, J. W. (2010). “Considering spatial correlation in mixed-effects regression, and impact on ground-motion models.” Bulletin of the Seismological Society of America, 100(6), 3295-3303. | |

Jayaram, N., and Baker, J. W. (2010). "Efficient sampling and data reduction techniques for probabilistic seismic lifeline risk assessment," Earthquake Engineering & Structural Dynamics, 39(10), 1109-1131. | |

Young, Y.L., Baker, J.W., and Motley, M.R. (2010). “Reliability-based design and optimization of adaptive marine structures.” Composite Structures, 92(2), 244-253. | |

Jayaram N. and Baker J.W. (2009). "Correlation model for spatially-distributed ground-motion intensities," Earthquake Engineering and Structural Dynamics, 38(15), 1687-1708. | |

Ryu, H., Kim, J. K., and Baker, J. W. (2009). "A Probabilistic Method for the Magnitude Estimation of a Historical Damaging Earthquake Using Structural Fragility Functions." Bulletin of the Seismological Society of America, 99(2A), 520-537. | |

Liel A., Haselton C., Deierlein G.G., and Baker J.W. (2009). "Incorporating modeling uncertainties in the assessment of seismic collapse risk of buildings," Structural Safety, 31 (2), 197-211. | |

Jayaram N. and Baker J.W. (2008). "Statistical tests of the joint distribution of spectral acceleration values," Bulletin of the Seismological Society of America, 98 (5), 2231-2243. | |

Baker J.W. and Jayaram N. (2008). "Correlation of spectral acceleration values from NGA ground motion models," Earthquake Spectra, 24 (1), 299-317. | |

Andrade J.E., Baker J.W., and Ellison K.C. (2008). "Random porosity fields and their influence on the stability of granular media," International Journal for Numerical and Analytical Methods in Geomechanics, 32(10), 1147-1172. | |

Baker J.W. and Cornell C.A. (2008). "Vector-valued intensity measures incorporating spectral shape for prediction of structural response," Journal of Earthquake Engineering 12 (4), 534-554. | |

Baker J.W. and Cornell C.A. (2008). "Vector-valued intensity measures for pulse-like near-fault ground motions," Engineering Structures, 30 (4), 1048-1057. | |

Baker J.W. and Cornell C.A. (2008). "Uncertainty Propagation in Probabilistic Seismic Loss Estimation," Structural Safety, 30 (3), 236-252. | |

Baker J.W., Schubert M., and Faber M. (2008). "On the Assessment of Robustness," Structural Safety, 30 (3), 253-267. | |

Baker J.W. and Faber M. (2008). "Liquefaction risk assessment using geostatistics to account for soil spatial variability," ASCE Journal of Geotechnical and Geoenvironmental Engineering, 134 (1), 14-23. | |

Tothong P., Cornell C.A., and Baker J.W. (2007). "Explicit directivity-pulse inclusion in probabilistic seismic hazard analysis," Earthquake Spectra, 23 (4), 867-891. | |

Baker J.W. (2007). "Quantitative classification of near-fault ground motions using wavelet analysis," Bulletin of the Seismological Society of America, 97 (5), 1486-1501. (Related website available here) | |

Baker J.W. (2007). "Probabilistic structural response assessment using vector-valued intensity measures," Earthquake Engineering & Structural Dynamics, 36 (13) 1861-1883. Errata. | |

Baker J.W. and Cornell C.A. (2006). "Correlation of Response Spectral Values for Multi-Component Ground Motions," Bulletin of the Seismological Society of America, 96 (1), 215-227. | |

Baker J.W. and Cornell C.A. (2006). "Which Spectral Acceleration Are You Using?" Earthquake Spectra, 22 (2) 293-312. | |

Baker J.W. and Cornell C.A. (2006). "Spectral Shape, Epsilon and Record Selection," Earthquake Engineering & Structural Dynamics, 35 (9) 1077-1095. | |

Baker J.W. and Cornell C.A. (2005). "A Vector-Valued Ground Motion Intensity Measure Consisting of Spectral Acceleration and Epsilon," Earthquake Engineering & Structural Dynamics, 34 (10), 1193-1217. |